157,460 research outputs found
Policies and regulations in Mexico with regard to genetic technology and food security
In 1988 the first application for field trials of a GMO was formally received in Mexico. Since then a Biosafety law, few bylaws and national official standards were enacted in order to regulate the safe use of GMOs and to evaluate, control and avoid adverse effects to human health and the environment. The Law on Biosafety of Genetically Modified Organisms was enacted in 2005 in order to comply with international obligations derived from the Cartagena Protocol on Biosafety signed by Mexico in 2000. This law established a biosafety legal framework to regulate the use of GMOs, protect biodiversity, and promote the conservation of organisms which Mexico is center of origin and center of genetic diversity. Since then, 561 permits for the release of GMOs into the environment have been granted between 2005 and 2014. This report gives and overview of the country’s approach to the use of GMOs, the current status of the biosafety legislation in Mexico and the development of policies and regulations since the first introduction of GM crops in the country
An Exactly Solvable Phase-Field Theory of Dislocation Dynamics, Strain Hardening and Hysteresis in Ductile Single Crystals
An exactly solvable phase-field theory of dislocation dynamics, strain
hardening and hysteresis in ductile single crystals is developed. The theory
accounts for: an arbitrary number and arrangement of dislocation lines over a
slip plane; the long-range elastic interactions between dislocation lines; the
core structure of the dislocations resulting from a piecewise quadratic Peierls
potential; the interaction between the dislocations and an applied resolved
shear stress field; and the irreversible interactions with short-range
obstacles and lattice friction, resulting in hardening, path dependency and
hysteresis. A chief advantage of the present theory is that it is analytically
tractable, in the sense that the complexity of the calculations may be reduced,
with the aid of closed form analytical solutions, to the determination of the
value of the phase field at point-obstacle sites. In particular, no numerical
grid is required in calculations. The phase-field representation enables
complex geometrical and topological transitions in the dislocation ensemble,
including dislocation loop nucleation, bow-out, pinching, and the formation of
Orowan loops. The theory also permits the consideration of obstacles of varying
strengths and dislocation line-energy anisotropy. The theory predicts a range
of behaviors which are in qualitative agreement with observation, including:
hardening and dislocation multiplication in single slip under monotonic
loading; the Bauschinger effect under reverse loading; the fading memory
effect, whereby reverse yielding gradually eliminates the influence of previous
loading; the evolution of the dislocation density under cycling loading,
leading to characteristic `butterfly' curves; and others
Initial data giving rise to naked singularities in spherically symmetric dust collapse
The phase space corresponding to a particular four-parameter family of
initial data for the gravitational collapse of a spherically symmetric dust
cloud is investigated. In a certain limit of the parameters, this family
reproduces the case of homogenous mass density -constant mass distribution- and
zero initial velocity, while in another limit, it generates a globally naked
singularity. We show that for initial data characterizing flat density
profiles, as well as large initial velocities, the probability of forming a
globally naked singularity is low.Comment: 5 pages, 5 figures, prepared for the proceedings of the IX Workshop
of the Gravitational and Mathematical Physics Division of the Mexican
Physical Society. Refereed versio
The Muscular Dystrophy Association
Muscular dystrophy (MD) is a social problem because the people affected by it do not get to live a normal life.https://digitalscholarship.unlv.edu/educ_sys_202/1016/thumbnail.jp
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